Fuzzy Numbers:Pre-K Foundation 4+
Evidence-Based Early Math App
Cognitive ToyBox, Inc.
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- 59,900.00 TZS
Screenshots
Description
"Kudos for putting together an academic-research background with an imaginative, playful presentation to try to help kids build a solid early math foundation.” - Common Sense Media
Help your preschooler develop early math skills with this science-backed game! Fuzzy Numbers provides a fairy-tale setting for children to practice foundational early math skills.
Your child will love exploring Princess Poodle’s castle, Prince Frog’s beanstalk, Witch Cat’s potion school, and Pirate Whale’s treasure cove. Each scene is designed to help your child exercise his or her intuitive sense of quantity, or “number sense”.
Research shows that children with a stronger number sense tend to perform better on real math tests (Halberda et al., 2008). Four and five year old children who played digital number sense games demonstrated better math performance (on tests of counting, number identification, addition, etc.) compared to control groups, when tested right after a brief practice (Wang et al., 2016) or after several weeks of practice (Park et al., 2016). Fuzzy Numbers is adaptive and continually challenges your child’s number sense. Children from ages 3 to 5 enjoy playing Fuzzy Numbers. Learn more about the science behind the game on the Cooney Center at Sesame Workshop blog: http://www.joanganzcooneycenter.org/2017/05/30/developing-an-evidence-based-early-math-app/.
Cognitive ToyBox is committed to developing science-backed games to support the early learning and cognitive development of children. Please contact us at hello@cognitivetoybox.com with any questions or feedback.
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References:
Halberda, J., Mazzocco, M. M., & Feigenson, L. (2008). Individual differences in non-verbal number acuity correlate with maths achievement. Nature, 455(7213), 665-668.
Park, J., Bermudez, V., Roberts, R. C., & Brannon, E. M. (2016). Non-symbolic approximate arithmetic training improves math performance in preschoolers. Journal of Experimental Child Psychology, 152, 278-293.
Wang, J. J., Odic, D., Halberda, J., & Feigenson, L. (2016). Changing the precision of preschoolers’ approximate number system representations changes their symbolic math performance. Journal of Experimental Child Psychology, 147, 82-99.
What’s New
Version 3.1
Small graphical bug fixes
App Privacy
The developer, Cognitive ToyBox, Inc., indicated that the app’s privacy practices may include handling of data as described below. For more information, see the developer’s privacy policy.
Data Not Linked to You
The following data may be collected but it is not linked to your identity:
- Identifiers
- Usage Data
- Diagnostics
Privacy practices may vary based on, for example, the features you use or your age. Learn More
Information
- Provider
- Cognitive ToyBox, Inc.
- Size
- 259.2 MB
- Category
- Education
- Compatibility
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- iPhone
- Requires iOS 9.0 or later.
- iPad
- Requires iPadOS 9.0 or later.
- iPod touch
- Requires iOS 9.0 or later.
- Languages
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English
- Age Rating
- 4+, Made for Ages 0 to 5
- Copyright
- © Cognitive ToyBox, Inc.
- Price
- 59,900.00 TZS
Supports
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Family Sharing
Up to six family members can use this app with Family Sharing enabled.